Your search keyword '"Schipper PJ"' showing total 12 results

1. Characterization of HIV variants from paired Cerebrospinal fluid and Plasma samples in primary microglia and CD4 + T-cells.

Author

Gumbs SBH, Stam AJ, Mudrikova T, Schipper PJ, Hoepelman AIM, van Ham PM, Borst AL, Hofstra L, Gharu L, van Wyk S, Wilkinson E, de Witte LD, Wensing AMJ, and Nijhuis M

Subjects

Humans, Adult, Male, Female, Middle Aged, Viral Tropism, Viral Load, Receptors, CXCR4 genetics, Cells, Cultured, Microglia virology, Microglia pathology, Microglia immunology, HIV-1 pathogenicity, HIV-1 genetics, CD4-Positive T-Lymphocytes virology, CD4-Positive T-Lymphocytes immunology, Receptors, CCR5 genetics, HIV Infections cerebrospinal fluid, HIV Infections virology, HIV Infections blood, HIV Infections immunology, RNA, Viral cerebrospinal fluid, RNA, Viral blood, RNA, Viral genetics, Virus Replication

Abstract

Despite antiretroviral therapy (ART), HIV persistence in the central nervous system (CNS) continues to cause a range of cognitive impairments in people living with HIV (PLWH). Upon disease progression, transmigrating CCR5-using T-cell tropic viruses are hypothesized to evolve into macrophage-tropic viruses in the CNS that can efficiently infect low CD4-expressing cells, such as microglia. We examined HIV-1 RNA concentration, co-receptor usage, and CSF compartmentalization in paired CSF and blood samples from 19 adults not on treatment. Full-length envelope CSF- and plasma-derived reporter viruses were generated from 3 subjects and phenotypically characterized in human primary CD4 +  T-cells and primary microglia. Median HIV RNA levels were higher in plasma than in CSF (5.01 vs. 4.12 log10 cp/mL; p = 0.004), and coreceptor usage was mostly concordant for CCR5 across the paired samples (n = 17). Genetically compartmentalized CSF viral populations were detected in 2 subjects, one with and one without neurological symptoms. All viral clones could replicate in T-cells (R5 T cell-tropic). In addition, 3 CSF and 1 plasma patient-derived viral clones also had the capacity to replicate in microglia/macrophages and, therefore have an intermediate macrophage tropic phenotype. Overall, with this study, we demonstrate that in a subset of PLWH, plasma-derived viruses undergo genetic and phenotypic evolution within the CNS, indicating viral infection and replication in CNS cells. It remains to be studied whether the intermediate macrophage-tropic phenotype observed in primary microglia represents a midpoint in the evolution towards a macrophage-tropic phenotype that can efficiently replicate in microglial cells and propagate viral infection in the CNS., (© 2024. The Author(s).)

Published

2024

2. Characterization of HIV-1 Infection in Microglia-Containing Human Cerebral Organoids.

Author

Gumbs SBH, Berdenis van Berlekom A, Kübler R, Schipper PJ, Gharu L, Boks MP, Ormel PR, Wensing AMJ, de Witte LD, and Nijhuis M

Subjects

Humans, Organoids virology, Receptors, HIV, AIDS-Associated Nephropathy pathology, HIV Infections, HIV-1 physiology, Microglia

Abstract

The achievement of an HIV cure is dependent on the eradication or permanent silencing of HIV-latent viral reservoirs, including the understudied central nervous system (CNS) reservoir. This requires a deep understanding of the molecular mechanisms of HIV's entry into the CNS, latency establishment, persistence, and reversal. Therefore, representative CNS culture models that reflect the intercellular dynamics and pathophysiology of the human brain are urgently needed in order to study the CNS viral reservoir and HIV-induced neuropathogenesis. In this study, we characterized a human cerebral organoid model in which microglia grow intrinsically as a CNS culture model to study HIV infection in the CNS. We demonstrated that both cerebral organoids and isolated organoid-derived microglia (oMG), infected with replication-competent HIVbal reporter viruses, support productive HIV infection via the CCR5 co-receptor. Productive HIV infection was only observed in microglial cells. Fluorescence analysis revealed microglia as the only HIV target cell. Susceptibility to HIV infection was dependent on the co-expression of microglia-specific markers and the CD4 and CCR5 HIV receptors. Altogether, this model will be a valuable tool within the HIV research community to study HIV-CNS interactions, the underlying mechanisms of HIV-associated neurological disorders (HAND), and the efficacy of new therapeutic and curative strategies on the CNS viral reservoir.

Published

2022

3. Human microglial models to study HIV infection and neuropathogenesis: a literature overview and comparative analyses.

Author

Gumbs SBH, Kübler R, Gharu L, Schipper PJ, Borst AL, Snijders GJLJ, Ormel PR, van Berlekom AB, Wensing AMJ, de Witte LD, and Nijhuis M

Subjects

Cells, Cultured, Humans, Microglia pathology, Monocytes, Virus Replication, HIV Infections pathology, HIV-1 genetics

Abstract

HIV persistence in the CNS despite antiretroviral therapy may cause neurological disorders and poses a critical challenge for HIV cure. Understanding the pathobiology of HIV-infected microglia, the main viral CNS reservoir, is imperative. Here, we provide a comprehensive comparison of human microglial culture models: cultured primary microglia (pMG), microglial cell lines, monocyte-derived microglia (MDMi), stem cell-derived microglia (iPSC-MG), and microglia grown in 3D cerebral organoids (oMG) as potential model systems to advance HIV research on microglia. Functional characterization revealed phagocytic capabilities and responsiveness to LPS across all models. Microglial transcriptome profiles of uncultured pMG showed the highest similarity to cultured pMG and oMG, followed by iPSC-MG and then MDMi. Direct comparison of HIV infection showed a striking difference, with high levels of viral replication in cultured pMG and MDMi and relatively low levels in oMG resembling HIV infection observed in post-mortem biopsies, while the SV40 and HMC3 cell lines did not support HIV infection. Altogether, based on transcriptional similarities to uncultured pMG and susceptibility to HIV infection, MDMi may serve as a first screening tool, whereas oMG, cultured pMG, and iPSC-MG provide more representative microglial culture models for HIV research. The use of current human microglial cell lines (SV40, HMC3) is not recommended., (© 2022. The Author(s).)

Published

2022

4. Estimates for Assessment of Lymphedema: Reliability and Validity of Extremity Measurements.

Author

Houwen F, Stemkens J, de Schipper PJ, van der Wouw P, Heitink M, and van Langen H

Subjects

Humans, Reproducibility of Results, Water, Arm, Lymphedema diagnosis

Abstract

Background: Measuring lymphedema with high accuracy is important for several reasons. The aim of this study was to assess the reliability and validity of three routinely used methods to estimate limb volumes. Methods and Results: Inverse water displacement, girth measurements, and Perometer measurements were executed. Although standard techniques were used, extra precautions were taken to maximize accuracy within and between observers. Water displacement, and girth and Perometer measurements resulted in standard deviations of 0.7%-0.8%, 0.5%, and 0.4%-1.0%, respectively. Conclusion: Measuring limb volumes using routine methods is not easy. Even under optimal conditions, the measurements are quite dependent on the observer. For practical situations, an easy, objective, and reliable method is lacking.

Published

2022

5. Immune activation correlates with and predicts CXCR4 co-receptor tropism switch in HIV-1 infection.

Author

Connell BJ, Hermans LE, Wensing AMJ, Schellens I, Schipper PJ, van Ham PM, de Jong DTCM, Otto S, Mathe T, Moraba R, Borghans JAM, Papathanasopoulos MA, Kruize Z, Venter FWD, Kootstra NA, Tempelman H, Tesselaar K, and Nijhuis M

Subjects

Adult, Cross-Sectional Studies, Female, Humans, Male, HIV Infections immunology, HIV Infections metabolism, HIV-1 physiology, Receptors, CCR5 metabolism, Receptors, CXCR4 metabolism, Viral Tropism

Abstract

HIV-1 cell entry is mediated by binding to the CD4-receptor and chemokine co-receptors CCR5 (R5) or CXCR4 (X4). R5-tropic viruses are predominantly detected during early infection. A switch to X4-tropism often occurs during the course of infection. X4-tropism switching is strongly associated with accelerated disease progression and jeopardizes CCR5-based HIV-1 cure strategies. It is unclear whether host immunological factors play a causative role in tropism switching. We investigated the relationship between immunological factors and X4-tropism in a cross-sectional study in HIV-1 subtype C (HIV-1C)-infected patients and in a longitudinal HIV-1 subtype B (HIV-1B) seroconverter cohort. Principal component analysis identified a cluster of immunological markers (%HLA-DR + CD4 + T-cells, %CD38 + HLA-DR + CD4 + T-cells, %CD38 + HLA-DR + CD8 + T-cells, %CD70 + CD4 + T-cells, %CD169 + monocytes, and absolute CD4 + T-cell count) in HIV-1C patients that was independently associated with X4-tropism (aOR 1.044, 95% CI 1.003-1.087, p = 0.0392). Analysis of individual cluster contributors revealed strong correlations of two markers of T-cell activation (%HLA-DR + CD4 + T-cells, %HLA-DR + CD38 + CD4 + T-cells) with X4-tropism, both in HIV-1C patients (p = 0.01;p = 0.03) and HIV-1B patients (p = 0.0003;p = 0.0001). Follow-up data from HIV-1B patients subsequently revealed that T-cell activation precedes and independently predicts X4-tropism switching (aHR 1.186, 95% CI 1.065-1.321, p = 0.002), providing novel insights into HIV-1 pathogenesis and CCR5-based curative strategies.

Published

2020

6. An inkjet-printed polysaccharide matrix for on-chip sample preparation in point-of-care cell counting chambers.

Author

Zhang X, Wasserberg D, Breukers C, Connell BJ, Schipper PJ, van Dalum J, Baeten E, van den Blink D, Bloem AC, Nijhuis M, Wensing AMJ, Terstappen LWMM, and Beck M

Abstract

On-chip sample preparation in self-contained microfluidic devices is a key element to realize simple, low-cost, yet reliable in vitro diagnostics that can be carried out at the point-of-care (POC) with minimal training requirements by unskilled users. To address this largely unmet POC medical need, we have developed an optimized polysaccharide matrix containing the reagents which substantially improves our fully printed POC CD4 counting chambers for the monitoring of HIV patients. The simply designed counting chambers allow for capillary-driven filling with unprocessed whole blood. We carefully tailored a gellan/trehalose matrix for deposition by inkjet printing, which preserves the viability of immunostains during a shelf life of at least 3 months and enables controlled antibody release for intense and homogeneous immunofluorescent cell staining throughout the complete 60 mm 2 image area within 30 min. Excellent agreement between CD4 counts obtained from our fully printed CD4 counting chambers and the gold standard, flow cytometry, is demonstrated using samples both from healthy donors and HIV-infected patients., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2020

7. Impact of the HIV-1 genetic background and HIV-1 population size on the evolution of raltegravir resistance.

Author

Fun A, Leitner T, Vandekerckhove L, Däumer M, Thielen A, Buchholz B, Hoepelman AIM, Gisolf EH, Schipper PJ, Wensing AMJ, and Nijhuis M

Subjects

Amino Acid Substitution, Anti-HIV Agents pharmacology, Anti-HIV Agents therapeutic use, Biological Evolution, Cell Line, Drug Resistance, Viral drug effects, Genetic Background, HIV Infections virology, HIV Integrase genetics, HIV Integrase Inhibitors pharmacology, HIV Integrase Inhibitors therapeutic use, HIV-1 enzymology, High-Throughput Nucleotide Sequencing, Humans, Population Density, RNA, Viral blood, Selection, Genetic drug effects, Treatment Failure, Drug Resistance, Viral genetics, HIV Infections drug therapy, HIV-1 drug effects, HIV-1 genetics, Raltegravir Potassium pharmacology, Raltegravir Potassium therapeutic use, Viral Load drug effects

Abstract

Background: Emergence of resistance against integrase inhibitor raltegravir in human immunodeficiency virus type 1 (HIV-1) patients is generally associated with selection of one of three signature mutations: Y143C/R, Q148K/H/R or N155H, representing three distinct resistance pathways. The mechanisms that drive selection of a specific pathway are still poorly understood. We investigated the impact of the HIV-1 genetic background and population dynamics on the emergence of raltegravir resistance. Using deep sequencing we analyzed the integrase coding sequence (CDS) in longitudinal samples from five patients who initiated raltegravir plus optimized background therapy at viral loads > 5000 copies/ml. To investigate the role of the HIV-1 genetic background we created recombinant viruses containing the viral integrase coding region from pre-raltegravir samples from two patients in whom raltegravir resistance developed through different pathways. The in vitro selections performed with these recombinant viruses were designed to mimic natural population bottlenecks., Results: Deep sequencing analysis of the viral integrase CDS revealed that the virological response to raltegravir containing therapy inversely correlated with the relative amount of unique sequence variants that emerged suggesting diversifying selection during drug pressure. In 4/5 patients multiple signature mutations representing different resistance pathways were observed. Interestingly, the resistant population can consist of a single resistant variant that completely dominates the population but also of multiple variants from different resistance pathways that coexist in the viral population. We also found evidence for increased diversification after stronger bottlenecks. In vitro selections with low viral titers, mimicking population bottlenecks, revealed that both recombinant viruses and HXB2 reference virus were able to select mutations from different resistance pathways, although typically only one resistance pathway emerged in each individual culture., Conclusions: The generation of a specific raltegravir resistant variant is not predisposed in the genetic background of the viral integrase CDS. Typically, in the early phases of therapy failure the sequence space is explored and multiple resistance pathways emerge and then compete for dominance which frequently results in a switch of the dominant population over time towards the fittest variant or even multiple variants of similar fitness that can coexist in the viral population.

Published

2018

8. Modulation of HIV-1 Gag NC/p1 cleavage efficiency affects protease inhibitor resistance and viral replicative capacity.

Author

van Maarseveen NM, Andersson D, Lepšík M, Fun A, Schipper PJ, de Jong D, Boucher CA, and Nijhuis M

Subjects

Amino Acid Substitution, DNA Mutational Analysis, HIV-1 drug effects, HIV-1 enzymology, HIV-1 genetics, Humans, Mutant Proteins genetics, Mutant Proteins metabolism, Mutation, Missense, Proteolysis, gag Gene Products, Human Immunodeficiency Virus genetics, Drug Resistance, Viral, HIV Protease metabolism, HIV Protease Inhibitors pharmacology, HIV-1 physiology, Virus Replication, gag Gene Products, Human Immunodeficiency Virus metabolism

Abstract

Background: Mutations in the substrate of HIV-1 protease, especially changes in the NC/p1 cleavage site, can directly contribute to protease inhibitor (PI) resistance and also compensate for defects in viral replicative capacity (RC) due to a drug resistant protease. These NC/p1 changes are known to enhance processing of the Gag protein. To investigate the capacity of HIV-1 to modulate Gag cleavage and its consequences for PI resistance and RC, we performed a detailed enzymatic and virological analysis using a set of PI resistant NC/p1 variants (HXB2431V, HXB2436E+437T, HXB2437T and HXB2437V)., Results: Here, we demonstrate that single NC/p1 mutants, which displayed only a slight increase in PI resistance did not show an obvious change in RC. In contrast, the double NC/p1 mutant, which displayed a clear increase in processing efficiency and PI resistance, demonstrated a clear reduction in RC. Cleavage analysis showed that a tridecameric NC/p1 peptide representing the double NC/p1 mutant was cleaved in two specific ways instead of one.The observed decrease in RC for the double NC/p1 mutant (HXB2436E+437T) could (partially) be restored by either reversion of the 436E change or by acquisition of additional changes in the NC/p1 cleavage site at codon 435 or 438 as was revealed during in vitro evolution experiments. These changes not only restored RC but also reduced PI resistance levels. Furthermore these changes normalized Gag processing efficiency and obstructed the novel secondary cleavage site observed for the double NC/p1 mutant., Conclusions: The results of this study clearly demonstrate that HIV-1 can modulate Gag processing and thereby PI resistance. Distinct increases in Gag cleavage and PI resistance result in a reduced RC that can only be restored by amino acid changes in NC/p1 which reduce Gag processing to an optimal rate.

Published

2012

9. HIV-1 protease inhibitor mutations affect the development of HIV-1 resistance to the maturation inhibitor bevirimat.

Author

Fun A, van Maarseveen NM, Pokorná J, Maas RE, Schipper PJ, Konvalinka J, and Nijhuis M

Subjects

Cell Line, HIV Infections drug therapy, HIV Infections virology, HIV Protease metabolism, HIV-1 drug effects, HIV-1 genetics, Humans, Virus Replication drug effects, gag Gene Products, Human Immunodeficiency Virus metabolism, Drug Resistance, Viral, HIV Protease genetics, HIV Protease Inhibitors pharmacology, HIV-1 physiology, Mutation, Succinates pharmacology, Triterpenes pharmacology, Virus Assembly drug effects, gag Gene Products, Human Immunodeficiency Virus genetics

Abstract

Background: Maturation inhibitors are an experimental class of antiretrovirals that inhibit Human Immunodeficiency Virus (HIV) particle maturation, the structural rearrangement required to form infectious virus particles. This rearrangement is triggered by the ordered cleavage of the precursor Gag polyproteins into their functional counterparts by the viral enzyme protease. In contrast to protease inhibitors, maturation inhibitors impede particle maturation by targeting the substrate of protease (Gag) instead of the protease enzyme itself. Direct cross-resistance between protease and maturation inhibitors may seem unlikely, but the co-evolution of protease and its substrate, Gag, during protease inhibitor therapy, could potentially affect future maturation inhibitor therapy. Previous studies showed that there might also be an effect of protease inhibitor resistance mutations on the development of maturation inhibitor resistance, but the exact mechanism remains unclear. We used wild-type and protease inhibitor resistant viruses to determine the impact of protease inhibitor resistance mutations on the development of maturation inhibitor resistance., Results: Our resistance selection studies demonstrated that the resistance profiles for the maturation inhibitor bevirimat are more diverse for viruses with a mutated protease compared to viruses with a wild-type protease. Viral replication did not appear to be a major factor during emergence of bevirimat resistance. In all in vitro selections, one of four mutations was selected: Gag V362I, A364V, S368N or V370A. The impact of these mutations on maturation inhibitor resistance and viral replication was analyzed in different protease backgrounds. The data suggest that the protease background affects development of HIV-1 resistance to bevirimat and the replication profiles of bevirimat-selected HIV-1. The protease-dependent bevirimat resistance and replication levels can be explained by differences in CA/p2 cleavage processing by the different proteases., Conclusions: These findings highlight the complicated interactions between the viral protease and its substrate. By providing a better understanding of these interactions, we aim to help guide the development of second generation maturation inhibitors.

Published

2011

10. Mutation Q95K enhances N155H-mediated integrase inhibitor resistance and improves viral replication capacity.

Author

Fun A, Van Baelen K, van Lelyveld SF, Schipper PJ, Stuyver LJ, Wensing AM, and Nijhuis M

Subjects

Amino Acid Substitution genetics, Anti-HIV Agents therapeutic use, Antiretroviral Therapy, Highly Active methods, HIV Infections drug therapy, HIV Infections virology, HIV-1 genetics, HIV-1 isolation & purification, HIV-1 physiology, Humans, Selection, Genetic, Treatment Failure, Viral Load, Drug Resistance, Viral, Evolution, Molecular, HIV Integrase genetics, HIV Integrase Inhibitors pharmacology, HIV-1 drug effects, Mutation, Missense, Virus Replication

Abstract

Objectives: The genetic barrier to development of raltegravir resistance is considered to be low, requiring at least one primary integrase mutation: Y143C, Q148H/K/R or N155H to confer raltegravir therapy failure. However, during continued raltegravir treatment failure, additional mutations may be selected. In a patient failing raltegravir therapy, we investigated the impact of multiple integrase mutations on resistance and viral replication. Furthermore, in vivo fitness was investigated during failure of raltegravir-containing highly active antiretroviral therapy and after raltegravir was discontinued from the regimen., Methods: Patient-derived viral integrase genes were cloned into a reference strain. These recombinant viruses were used to determine the contribution of individual integrase mutations to raltegravir resistance and replication capacity in vitro. To determine in vivo fitness, the relative proportion of specific integrase mutations was monitored over time by in-depth clonal analysis of the viral integrase at baseline, during and after raltegravir treatment., Results: Raltegravir therapy failure was associated with the initial selection of primary resistance mutation N155H. This mutation conferred a 3.8-fold reduction in raltegravir susceptibility and a severe reduction in viral replication. Acquisition of integrase mutation Q95K increased resistance (6.2-fold) and partly restored viral replication. Selection of a third mutation, V151I, further increased raltegravir resistance (20-fold), but decreased viral replication. After prolonged raltegravir interruption, raltegravir resistance mutations were lost, demonstrating the reduced replication capacity of the resistant virus., Conclusions: We describe selection of Q95K as a secondary resistance mutation during raltegravir therapy failure. In the background of N155H, Q95K enhances raltegravir and elvitegravir resistance and improves the impaired replication of the virus.

Published

2010

11. Enhanced severity of virus associated lower respiratory tract disease in asthma patients may not be associated with delayed viral clearance and increased viral load in the upper respiratory tract.

Author

van Elden LJ, Sachs AP, van Loon AM, Haarman M, van de Vijver DA, Kimman TG, Zuithoff P, Schipper PJ, Verheij TJ, and Nijhuis M

Subjects

Adolescent, Adult, Female, Humans, Male, Middle Aged, Severity of Illness Index, Virus Diseases virology, Virus Shedding, Viruses classification, Asthma complications, Respiratory Tract Infections physiopathology, Respiratory Tract Infections virology, Viral Load, Virus Diseases physiopathology, Viruses isolation & purification

Abstract

Background: Viral respiratory infections, particularly human rhinovirus (HRV) infections, are the most common cause of asthma exacerbation. HRV infections usually lead to more severe and longer duration of lower respiratory tract (LRT) symptoms in asthmatics than in otherwise healthy individuals. However, the exact mechanism by which viruses contribute to exacerbation of asthma is unknown., Objectives: The main objective of our study was to investigate the relationship of the enhanced severity of LRT symptoms to viral dynamics or cytokine responses in the upper respiratory tract (URT)., Study Design: Therefore, we conducted a longitudinal study in which asthmatics and healthy controls were followed during natural viral respiratory tract infections., Results: Our study confirmed that viral respiratory tract infections caused more severe problems of the LRT in asthma patients as compared to healthy controls. However, for all subjects, the severity of LRT symptoms were not related to viral load or prolonged viral shedding in the URT. In addition, we did not detect differences in proinflammatory cytokines in the URT between asthmatics and controls., Conclusion: Persistence of the virus, as well as viral load in the URT, may not be associated with the induction and/or persistence of asthmatic symptoms.

Published

2008

12. Ordered accumulation of mutations in HIV protease confers resistance to ritonavir.

Author

Molla A, Korneyeva M, Gao Q, Vasavanonda S, Schipper PJ, Mo HM, Markowitz M, Chernyavskiy T, Niu P, Lyons N, Hsu A, Granneman GR, Ho DD, Boucher CA, Leonard JM, Norbeck DW, and Kempf DJ

Subjects

Codon, Genotype, HIV enzymology, HIV genetics, HIV Infections blood, Humans, Phenotype, Ritonavir, Valine genetics, Valine pharmacology, HIV drug effects, HIV Protease genetics, HIV Protease Inhibitors pharmacology, Mutation, Thiazoles pharmacology, Valine analogs & derivatives

Abstract

Analysis of the HIV protease gene from the plasma of HIV-infected patients revealed substitutions at nine different codons selected in response to monotherapy with the protease inhibitor ritonavir. Mutants at valine-82, although insufficient to confer resistance, appeared first in most patients. Significant phenotypic resistance required multiple mutations in HIV protease, which emerged subsequently in an ordered, stepwise fashion. The appearance of resistance mutations was delayed in patients with higher plasma levels of ritonavir. Early mutants retained susceptibility to structurally diverse protease inhibitors, suggesting that dual protease inhibitor therapy might increase the duration of viral suppression.

Published

1996